From single-rack AI deployments to multi-megawatt hyperscale facilities, Apex engineers cooling architectures that match your compute density, uptime requirements, and deployment timeline.
Direct-to-chip and rear-door liquid cooling for NVIDIA DGX, HGX, and custom GPU clusters. Support densities from 40 kW to 100+ kW per rack with redundant coolant distribution and intelligent thermal monitoring.
High-fidelity thermal management for supercomputing, weather modeling, pharmaceutical simulation, and academic research clusters. Engineered for MPI workloads with uniform inlet temperatures across thousands of nodes.
Modular liquid cooling infrastructure designed for rapid deployment in multi-tenant data centers. Standardized coolant distribution, shared dry cooler farms, and tenant-isolated monitoring meet colo SLA requirements.
Retrofit-ready liquid cooling for existing enterprise facilities. Hybrid air-and-liquid designs allow phased migration without wholesale infrastructure replacement, preserving your capital investment.
Self-contained liquid cooling modules for edge deployments, micro data centers, and modular facilities. Integrated CDU, dry cooler, and control in a single enclosure for fast deployment in non-traditional spaces.
When off-the-shelf products don't meet your requirements, Apex's engineering team designs bespoke thermal solutions. From specialized cold plates for novel chip packages to complete facility-wide cooling retrofits.
How Apex liquid cooling integrates into your data center infrastructure
Chilled water or tower water from the facility enters the CDU heat exchanger, isolating the facility loop from the IT coolant loop.
The Coolant Distribution Unit regulates flow, temperature, and pressure for the secondary loop, with redundant pumps and intelligent controls.
Stainless steel manifolds distribute coolant to each rack via quick-disconnect couplings, enabling hot-swappable maintenance.
Coolant reaches cold plates, RDHx units, or in-rack heat exchangers, absorbing heat directly from high-density components.
Warmed coolant returns to the CDU, where heat is transferred to the facility water and rejected via dry coolers or cooling towers.
See how liquid cooling reduces your total cost of ownership with our comprehensive ROI model covering energy savings, density gains, and infrastructure reduction.